本章解释了参考作物蒸发腾发量(ETo)和标准条件下的作物蒸发腾发量(ETc)以及各种管理和环境条件(ETc adj)的概念以及两者之间的差异。它还研究了影响蒸发腾发量的因素、蒸发腾发量的正常表达单位以及确定蒸发腾发量的方式。
接收的能量来表示。能量是指蒸发自由水所需的能量或热量。这种被称为汽化潜热(l)的能量是水温的函数。例如,在20°C时,l 约为2.45 MJ kg-1。换句话说,蒸发1千克或0.001立方米的水需要2.45兆焦耳。因此,每平方米2.45 MJ的能量输入能够蒸发0.001 m或1 mm的水,因此1 mm的水相当于2.45 MJ m-2。以MJ m-2 day-1为单位表示的蒸散率用l ET表示,即潜热通量。
表1总结了用于表示蒸散率和转换系数的单位。
TABLE 1. Conversion factors for evapotranspiration 表1. 蒸散量换算系数
| depth | volume per unit area | energy per unit area * |
mm day-1 | m3 ha-1 day-1 | l s-1 ha-1 | MJ m-2 day-1 |
1 mm day-1 | 1 | 10 | 0.116 | 2.45 |
1 m3 ha-1 day-1 | 0.1 | 1 | 0.012 | 0.245 |
1 l s-1 ha-1 | 8.640 | 86.40 | 1 | 21.17 |
1 MJ m-2 day-1 | 0.408 | 4.082 | 0.047 | 1 |
* For water with a density of 1000 kg m-3 and at 20°C. 对于密度为1000 kg m-3且温度为20°C的水。
EXAMPLE 1. Converting evaporation from one unit to another 例1. 将蒸发量单位之间的转换
On a summer day, net solar energy received at a lake reaches 15 MJ per square metre per day. If 80% of the energy is used to vaporize water, how large could the depth of evaporation be? |
From Table 1: | 1 MJ m-2 day-1 = | 0.408 | mm day-1 |
Therefore: | 0.8 x 15 MJ m-2 day-1 = 0.8 x 15 x 0.408 mm d-1 = | 4.9 | mm day-1 |
The evaporation rate could be 4.9 mm/day |
